CN2726269Y - Solar infrared passageway illuminating device - Google Patents
Solar infrared passageway illuminating device Download PDFInfo
- Publication number
- CN2726269Y CN2726269Y CN 200420093172 CN200420093172U CN2726269Y CN 2726269 Y CN2726269 Y CN 2726269Y CN 200420093172 CN200420093172 CN 200420093172 CN 200420093172 U CN200420093172 U CN 200420093172U CN 2726269 Y CN2726269 Y CN 2726269Y
- Authority
- CN
- China
- Prior art keywords
- infrared
- heat
- illumination
- illuminating
- solar energy
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Circuit Arrangement For Electric Light Sources In General (AREA)
Abstract
The utility model discloses a solar infrared passageway illuminating device, which is used for the illuminating of the passageway and the hallway of a building and comprises a solar energy power source and an automatic illuminating lamp. The automatic illuminating lamp comprises an infrared illuminating control portion, an illuminating portion and an outer box. The control portion is connected with the illuminating portion and installed in the outer box, and the solar energy power source is connected with the control portion and the illuminating portion through an external connected power-supply line. The infrared illuminating control portion comprises an infrared-detecting power source, a passive infrared-detecting processing circuit and a luminous lighting control circuit. The infrared detecting power source is respectively connected with the solar energy power source and the passive infrared-detecting processing circuit. The passive infrared-detecting processing circuit is connected with the luminous lighting control circuit and the illuminating portion. The illuminating device is a passageway illuminating device integrated the controlling and the illuminating, and the solar energy is utilized for lighting. The passive infrared technique is adopted to control the on and off of the light source. The utility model has the advantages of high electric energy-light energy conversion efficiency, convenient mounting and using, security and long operating life, etc.
Description
Technical field
The utility model relates to a kind of lighting device, and particularly a kind of infrared corridor illuminating apparatus of solar energy that utilizes solar energy, band infrared controller is used for the corridor and the passageway illumination of building.
Background technology
The 220V civil power is adopted in the illumination of present building corridor and passageway mostly, and what have has separate type acoustic control or an infrared control derailing switch.The infrared ray that produces in order to prevent to throw light on is to the interference of control switch device, and infrared controller needs install away from illumination section.This lighting device exists following deficiency: 1, increase year by year in energy resource consumption, energy crisis under the serious situation, adopts city's electric lighting to increase the consumption of conventional energy day by day, aggravated the in short supply of conventional energy resource.2, because control section needs to separate installation with illumination section in corridor, not only increased the workload of installing but also influenced the neat and artistic of corridor.3, owing to adopt civil power 220V voltage, be easier to the puncture of control section and illumination section device take place and burn, thereby influence useful life of lighting device.Adopt 220V power supply personal safety to be affected simultaneously in the installation of lighting device with when using.
Summary of the invention
Technical problem to be solved in the utility model is, overcome the deficiency that prior art exists, provide a kind of and utilize solar lighting, adopt passive infrared technology control light source Push And Release, union control section and illumination section are energy-saving in one, electric energy-light energy use efficiency height, easy to install and use, safety, the infrared corridor illuminating apparatus of the solar energy of long working life.
The technical scheme in the invention for solving the above technical problem is: the infrared corridor illuminating apparatus of this solar energy, comprise sun-generated electric power, be characterized in: also comprise automatic illuminating lamp, this lamp comprises the infrared illumination control section, illumination section and outer box, the infrared illumination control section links to each other with illumination section and is contained in the outer box, sun-generated electric power links to each other with illumination section with the infrared illumination control section by circumscripted power line, described infrared illumination control section adopts the passive infrared lighting controller, it includes the infrared acquisition power supply, passive infrared detection treatment circuit and luminous lighting control circuit, the infrared acquisition power supply respectively with sun-generated electric power, the passive infrared detection treatment circuit links to each other, the passive infrared detection treatment circuit also with the luminous lighting control circuit, illumination section links to each other.
Passive infrared detection treatment circuit described in the utility model contains heat to be released infrared probe, Fresnel lenses and heat and releases infrared signal and handle integrated package, the output that heat is released infrared probe links to each other with the input that heat is released infrared signal processing integrated package, the output that heat is released infrared signal processing integrated package links to each other with illumination section, and Fresnel lenses is contained in heat and releases the infrared probe front.
Sun-generated electric power described in the utility model contains solar photovoltaic conversion plate and accumulator jar.
Illumination section described in the utility model contains light source and daylight line control circuit, light source links to each other with sun-generated electric power, luminous lighting control circuit, the daylight line control circuit is released infrared signal processing integrated package with heat and is linked to each other, light source adopts highlighted light-emitting diode, and the daylight line control circuit adopts photo resistance.
Outer box described in the utility model contains the device panel, fixing skeleton and back cover is installed, device panel and back cover is installed is fixed on fixedly on the skeleton, have lighting window and detection window on the described device panel, the glass baffle plate is housed on the lighting window, Fresnel lenses is housed on the detection window, on the described fixedly skeleton infrared illumination control section and illumination section are installed, the heat of infrared illumination control section is released infrared probe and is arranged in detection window, the light-emitting diode and the photo resistance of illumination section are arranged in lighting window, have sun-generated electric power on the described installation back cover and insert the hole, the device installing hole.
It is the passive infrared probe that heat described in the utility model is released infrared probe, adopt the KDS209 sound-pipe, described heat is released infrared signal and is handled integrated package employing CS9803GP integrated package, and described Fresnel lenses adopts Fresnel Lenses 7701, and described luminous lighting control circuit adopts triode.
The utility model compared with prior art has the following advantages: 1, this lighting device is with solar powered and without mains-supplied, light source is selected LED for use, LED and control element are worked under low-voltage, little current conditions, not only power consumption is low, energy-conservation, and installation and safe and reliable, long working life.2, this lighting device is because little, the electrical-optical conversion efficiency height of LED operating current, the thermal radiation that produces when illumination is very little, can not influence the operate as normal of passive infrared detection head, so infrared illumination control section and illumination section are integrated in one, rational in infrastructure, convenience is provided for installation, maintenance.3, lighting controller of the present utility model adopts the passive infrared lighting controller, release infrared probe, Fresnel lenses and heat by heat and release infrared integrated circuit and dispose other elements and form, this infrared illumination control section detection range is distant, suppress to disturb, result of use is good.
Description of drawings
Fig. 1 is the structured flowchart of the utility model embodiment.
Fig. 2 is the electrical schematic diagram of the utility model embodiment.
Fig. 3 is the automatic illuminating lamp front view of the utility model embodiment.
Fig. 4 is the vertical view of Fig. 3.
Fig. 5 is the partial sectional view of Fig. 3.
Fig. 6 uses the installation connection diagram for the utility model embodiment.
Embodiment
Example structure is referring to accompanying drawing.
Referring to Fig. 1, the infrared corridor illuminating apparatus of this solar energy comprises sun-generated electric power 1 and automatic illuminating lamp 4, and sun-generated electric power 1 comprises solar photovoltaic conversion plate 101 and accumulator jar 102; Solar opto-electronic board 101 receives solar energy, and is converted to power storage in accumulator jar 102, supplies with automatic illuminating lamp 4 electric energy by accumulator jar 102.Automatically illuminating lamp 4 comprises infrared illumination control section 3, illumination section 2 and outer box 401.Infrared illumination control section 3 links to each other with illumination section 2 and is contained in the outer box 401, and sun-generated electric power 1 links to each other with illumination section 2 with infrared illumination control section 3 by circumscripted power line.
Infrared illumination control section 3 comprises infrared acquisition power supply 301, passive infrared detection treatment circuit 302 and emission control circuit 303; Illumination section 2 comprises light source 201 and daylight line control circuit 202.Infrared acquisition power supply 301 links to each other with sun-generated electric power 1, passive infrared detection treatment circuit 302, light source 201 respectively, and passive infrared detection treatment circuit 302 also links to each other with emission control circuit 303, daylight line control circuit 202; Light source 201 links to each other with sun-generated electric power 1, emission control circuit plate 303.
Referring to Fig. 2, infrared acquisition power supply 301 adopts little power consumption 5V voltage stabilizing circuit, has used the HT1050 voltage-stabiliser tube.This circuit can be stablized the work of infrared acquisition and signal processing circuit, when avoiding throwing light on or the caused operating current of other reasons changes and voltage fluctuation to the influence of detection and signal processing.Passive infrared detection treatment circuit 302 contains heat to be released infrared probe PIR, Fresnel lenses 408 and heat and releases infrared signal and handle integrated package DIP16, the output that heat is released infrared probe PIR links to each other with the input that heat is released infrared signal processing integrated package DIP16, the output that heat is released infrared signal processing integrated package DIP16 links to each other with emission control circuit 303, and Fresnel lenses 408 is contained in heat and releases infrared probe PIR front.Embodiment heat is released infrared probe PIR and is adopted the KDS209 sound-pipe; Heat is released infrared signal and is handled integrated package DIP16 employing CS9803GP integrated package; Fresnel lenses adopts Fresnel Lenses 7701, and focal length is 21.7mm.Emission control circuit 303 is the switching circuit of being made up of triode G1, G2, G3.Light source 201 adopts highlighted LED pipe group.Daylight line control circuit 202 is used photo resistance.
Operation principle and process that passive heat is released infrared probe PIR are:
Passive type infrared probe PIR about by the specific wavelength 10 μ m that survey the human body emission infrared ray and carry out work.The infrared probe transducer comprises the just in time opposite pyroelectricity element of two electric polarization directions of mutual serial or parallel connection, this pyroelectricity element is that infrared radiation about 10 μ m is very responsive to wavelength, ambient background radiation is released element to two heat and is almost had identical effect, the electrical effect of releasing of its generation is cancelled out each other, so charge balance is the output of detector no signal.In case the people enters in the search coverage, infrared ray about 10 μ m of human body emission gathers on the infrared probe transducer after strengthening by the Fresnel filter, and by the reception of pyroelectricity unit, two heat differences that pyroelectricity unit receives, the electric charge disequilibrium, pyroelectricity is also different, can not offset, what just infrared probe was sensed is the difference signal of human body temperature and ambient temperature, and this signal is converted into the signal of telecommunication, starts illumination after subsequent conditioning circuit is handled.
The Fresnel Lenses effect has two:
The one, focussing force, soon heat is released the infrared signal refraction or is reflected on the pyroelectric infrared transducer, second effect is that search coverage is divided into several area pellucidas and dark space, make the mobile object that enters search coverage can be with the form of variations in temperature, the heat that changes on pyroelectric infrared transducer be released infrared signal.Gu Er, Fresnel Lenses make infrared probe increase detection range, have suppressed the interference of white light and near micro-thermal infrared again, have increased detection reliability.
The CS9803GP integrated package key property characteristics that heat is released the employing of infrared signal processing integrated circuit are as follows:
Operating voltage DC is that 4.0V-5.5V, operating current are less than 1Am; External oscillation resistance, electric capacity; External cadmium sulfide CDS transducer suppresses output daytime; Built-in two stage amplifer, Gain Adjustable; Control time is adjustable; Built-in voltage stabilizing output 3.1V directly drives PIR; With the WT8072 of WELTREND company compatibility; The DIP16 encapsulation.
The pin explanation of CS9803GP integrated package:
| Sequence number | Symbol | Functional description | Sequence number | Symbol | Functional description | |
| 1 | UOU1 | Amplifier output 1 | 9 | CDS | CDS detects | |
| 2 | NII1 | Amplifier positive input 1 | 10 | TRIAC | | |
| 3 | II1 | The negative input 1 of amplifier | 11 | RELAY | RELAY output | |
| 4 | VREF | Reference voltage | 12 | ZCD | Zero passage detection | |
| 5 | GND | Ground | 13 | VDD | Power supply | |
| 6 | TB | System clock | 14 | II2 | The negative input 1 of amplifier | |
| 7 | QTEST | Test | 15 | NII2 | Amplifier | |
| 8 | CTI | Timer clock | 16 | | Amplifier output | 2 |
The KDS209 sound-pipe detects the trace quantity electric charge input CS9803GP integrated circuit that is produced behind the human body pyroelectric signal and handles, and then from 11 pin output signal control switch circuit, thereby opens or close LED luminous tube group.Adjust capacitor C 5 and can adjust the length of lighting hours, can adjust the dark bright degree of the light of enabling this lighting device and adjust the R8 resistance.Embodiment is detecting man-hour unlatching LED, and conducting is closed after about 20 seconds voluntarily, saves the electric energy of sun the subject of knowledge and the object of knowledge conversion.By day because photo resistance is a low resistance, produce electronegative potential and pin enabling of lighting device,, produce high potential and enable lighting device because photo resistance is a high value to night.This lighting device operating voltage is 12V, and operating current is less, and electric current is about 80mA when normal illumination, and power consumption is about 1W, by day or when not throwing light on night, and the electric current I<0.9mA that always works, power consumption is about 0.01W.
Referring to Fig. 3-Fig. 5, automatically the outer box 401 of illuminating lamp 4 contains device panel 402, fixing skeleton 404 and back cover 403 is installed, and device panel 402 and installation back cover 403 are fixed on fixedly on the skeleton 404.Four the clamping heads of embodiment by 402 4 jiaos of device panels, with fixing skeleton 404 on four card of corresponding with it coupling, will install panel 402 and directly be connected to fixedly on the skeleton 404.Back cover 403 is installed with fixing being connected of skeleton 404 is, directly is fixed together with screw by four pilot holes 414 on the fixing skeleton 404 and four pilot holes on the installation back cover 403.
Have lighting window 407 and detection window 406 on the device panel 402; Lighting window is equipped with LED pipe group 409 and photo resistance 410 for 407 li, the polymethyl methacrylate baffle plate 405 that lighting window 407 outer retainings have the protective element device to use; Fresnel lenses 408 is housed on the detection window 406.Infrared illumination control section 3 and illumination section 2 fixedly are installed on the skeleton 404.Back cover 403 is installed in order to protecting circuit board and each components and parts of automatic illuminating lamp 4 inside, and automatic illuminating lamp 4 can be installed on the place that the user need install, install and have sun-generated electric power on the back cover 403 and insert hole 411 by back cover 403 is installed.
The circuit of the automatic illuminating lamp 4 of embodiment divides lighting circuit plate and two circuit boards of signal processing circuit board, connects by the four-core flat wire, and on the four-core socket that is inserted in the lighting circuit plate, the other end is inserted on the signal processing circuit board.Sun-generated electric power 1 by circumscripted power line, pass the sun-generated electric power of installing on the back cover 403 and insert hole 411, be fixed on the signal processing circuit board with screw.
Lighting circuit plate and being connected of fixing skeleton 404 are four installing holes by four jiaos of this circuit boards, directly are fixed on fixedly on the skeleton 404 with φ 3mm bolt.
Detectable signal treatment circuit plate is with fixedly being connected of skeleton 404 is by the 12mm height, endoporus is the pad post of φ 4mm, with this circuit board rack height, be fixed by bolts on four installing holes 413 of fixing skeleton 404, to guarantee detecting head PIR the distance of 22mm is arranged from Fresnel lenses 408.
The use of present embodiment is installed as shown in Figure 6, building, every building adopts one group of solar opto-electronic board 101 to receive solar energy, and be converted to power storage in accumulator jar 102, divide to be fed in the automatic illuminating lamp 4 of each corridor after accumulator jar 102 storages, serial or parallel connection can each other for these automatic illuminating lamps 4.Automatically illuminating lamp 4 generally is installed on middle high about the 1.8 meters metope of upper and lower corridor, can detect upper and lower corridor pedestrian's information easily like this, thereby open illuminating lamp automatically.
Claims (6)
1, the infrared corridor illuminating apparatus of a kind of solar energy, comprise sun-generated electric power, it is characterized in that: also comprise automatic illuminating lamp, this lamp comprises the infrared illumination control section, illumination section and outer box, the infrared illumination control section links to each other with illumination section and is contained in the outer box, sun-generated electric power links to each other with illumination section with the infrared illumination control section by circumscripted power line, described infrared illumination control section adopts the passive infrared lighting controller, it includes the infrared acquisition power supply, passive infrared detection treatment circuit and luminous lighting control circuit, the infrared acquisition power supply respectively with sun-generated electric power, the passive infrared detection treatment circuit links to each other, the passive infrared detection treatment circuit also with the luminous lighting control circuit, illumination section links to each other.
2, the infrared corridor illuminating apparatus of solar energy according to claim 1, it is characterized in that: described passive infrared detection treatment circuit contains heat to be released infrared probe, Fresnel lenses and heat and releases infrared signal and handle integrated package, the output that heat is released infrared probe links to each other with the input that heat is released infrared signal processing integrated package, the output that heat is released infrared signal processing integrated package links to each other with illumination section, and Fresnel lenses is contained in heat and releases the infrared probe front.
3, the infrared corridor illuminating apparatus of solar energy according to claim 1, it is characterized in that: described sun-generated electric power contains solar photovoltaic conversion plate and accumulator jar.
4, the infrared corridor illuminating apparatus of solar energy according to claim 1, it is characterized in that: described illumination section contains light source and daylight line control circuit, light source links to each other with sun-generated electric power, luminous lighting control circuit, the daylight line control circuit is released infrared signal processing integrated package with heat and is linked to each other, light source adopts highlighted light-emitting diode, and the daylight line control circuit adopts photo resistance.
5, according to claim 1 or the infrared corridor illuminating apparatus of 4 described solar energy, it is characterized in that: described outer box contains the device panel, fixing skeleton and back cover is installed, device panel and back cover is installed is fixed on fixedly on the skeleton, have lighting window and detection window on the described device panel, the glass baffle plate is housed on the lighting window, Fresnel lenses is housed on the detection window, on the described fixedly skeleton infrared illumination control section and illumination section are installed, the heat of infrared illumination control section is released infrared probe and is arranged in detection window, the light-emitting diode and the photo resistance of illumination section are arranged in lighting window, have sun-generated electric power on the described installation back cover and insert the hole, the device installing hole.
6, the infrared corridor illuminating apparatus of solar energy according to claim 5, it is characterized in that: it is the passive infrared probe that described heat is released infrared probe, adopt the KDS209 sound-pipe, described heat is released infrared signal and is handled integrated package employing CS9803GP integrated package, described Fresnel lenses adopts Fresnel Lenses 7701, and described luminous lighting control circuit adopts triode.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200420093172 CN2726269Y (en) | 2004-09-13 | 2004-09-13 | Solar infrared passageway illuminating device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200420093172 CN2726269Y (en) | 2004-09-13 | 2004-09-13 | Solar infrared passageway illuminating device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN2726269Y true CN2726269Y (en) | 2005-09-14 |
Family
ID=35040972
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200420093172 Expired - Fee Related CN2726269Y (en) | 2004-09-13 | 2004-09-13 | Solar infrared passageway illuminating device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN2726269Y (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101469823B (en) * | 2007-12-28 | 2010-09-08 | 辽宁太阳能研究应用有限公司 | Solar corridor illuminating apparatus |
| CN101527984B (en) * | 2008-03-04 | 2012-07-25 | 宏齐科技股份有限公司 | Illumination management system for golf course and control method thereof |
| CN111243209A (en) * | 2020-01-16 | 2020-06-05 | 锐成科技(河源)有限公司 | Infrared probe with automatic charging function and use method |
-
2004
- 2004-09-13 CN CN 200420093172 patent/CN2726269Y/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101469823B (en) * | 2007-12-28 | 2010-09-08 | 辽宁太阳能研究应用有限公司 | Solar corridor illuminating apparatus |
| CN101527984B (en) * | 2008-03-04 | 2012-07-25 | 宏齐科技股份有限公司 | Illumination management system for golf course and control method thereof |
| CN111243209A (en) * | 2020-01-16 | 2020-06-05 | 锐成科技(河源)有限公司 | Infrared probe with automatic charging function and use method |
| CN111243209B (en) * | 2020-01-16 | 2021-08-10 | 锐成科技(河源)有限公司 | Infrared probe with automatic charging function and use method |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CA2610217C (en) | Solar powered led street lamp with automatic light control | |
| US20110170283A1 (en) | Solar Powered Led Street Lamp With Automatic Light Control | |
| CN106937461A (en) | A kind of corridor energy-saving illuminator based on step price | |
| CN102573186A (en) | High-efficiency LED (Light Emitting Diode) illumination control system | |
| CN203504812U (en) | LED lamp intelligent illumination system based on STC single-ship microcomputer | |
| AU2008101181A4 (en) | Solar powered LED street lamp with automatic light control | |
| CN102149238A (en) | Intelligent detection and control system for regional LED (light-emitting diode) illumination | |
| CN2726269Y (en) | Solar infrared passageway illuminating device | |
| KR20080029135A (en) | An intelligent photovoltaic street lamp | |
| CN210462635U (en) | Solar outdoor wall lamp | |
| CN209643037U (en) | A kind of garden landscape intelligent lighting system | |
| CN202634824U (en) | Sunlight-LED (Light-Emitting Diode) complementary all-weather green illumination device | |
| CN207962308U (en) | A kind of fire-fighting emergent luminous signboard with automatic detection function | |
| CN102883507A (en) | Program-controlled various-sensor solar energy light emitting diode (LED) outdoor lamp and control system thereof | |
| CN202077225U (en) | Infrared-sensing circuit | |
| CN206112585U (en) | Switch automatic control LED light | |
| CN205491362U (en) | Controller for solar street lamp | |
| CN208967693U (en) | A kind of intelligent induction LED street lamp | |
| CN206918819U (en) | A kind of automatic ground footlight | |
| CN109348584A (en) | A kind of garden landscape intelligent lighting system | |
| CN205919241U (en) | Photovoltaic leaded light daylighting system | |
| CN103841701A (en) | Sunlight, mains supply and solar energy complementary type lighting system | |
| CN202773155U (en) | Solar LED outdoor lamp with program control of multiple sensors | |
| CN202663585U (en) | Outdoor billboard lighting device in heavy fog weather | |
| CN220205527U (en) | Double-end garden street lamp |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C19 | Lapse of patent right due to non-payment of the annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |